circulation and purification of gas in the sealed harpo...
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Philippe Gros – philippe.gros@llr.in2p3.fr, Mickaël Frotin – frotin@llr.in2p3.fr
Circulation and purification of gas in the sealed HARPO TPC
Characterization of the gaswith cosmic ray data
Selection of high momentum cosmic tracks
● straight tracks● uniform <dE/dx>
Distribution of charge vs drift time● corrected for angular effect● Gain from height● Drift velocity from length● Attenuation from slope
● relative value● combined with threshold effects
Charge vs drift time distribution of cosmic rays for a 1h run
Evolution of the distribution for 3 runs, at 1.5 month intervalThe increasing exponential attenuation is clearly visible
The HARPO TPC
• 30 cm cubic TPC
• Electron amplification by Micromegas+2GEM
• Gas: Ar/iC4H10 95/5% up to 5bar
• 2x288 strips readout (x&y), 1mm pitch
• Readout electronics based on AFTER chips(511 time bins up to 100 MHz)
• Trigger: 6 scintillators + micromegas signal and timing (+ laser pulse when available) MicromegasGEM
Field cage
ScintillatorsReadout strips
+
Measurement Results
● Unchanged gas in sealed vessel for 5 month: February to July 2015
● CAPS started after 5 month (July 2015)
Gas evolution from cosmic ray data
● The attenuation increases due to electron capture - probably O2 from leaks
● The drift velocity decreases
- probably H2O from outgassing
● The original properties are recovered after a couple of weeks of circulation
0.5L gas samples => ~30mbar dropsstart CAPS
Gas properties evaluated from cosmic ray data. Extraction of gas samples for analysis caused pressure drops. The voltages were adjusted to keep a similar gain.
Pressure
[mbar]
Ar:iC4H10 (95:5) 2100mbar Gas samples were analysed in a high resolution (R=2800) direct injection mass spectrometer (THERMO MAT 271) at LRMO
● Before starting of CAPS:
620ppm N2, 180ppm O2, 190ppm CO 120ppm CO2, 5.10% isobutane
● After one month running
890ppm N2, <20ppm O2, 250ppm CO 160ppm CO2, 4.42% isobutane
● The H2O content cannot be measured in samples (needs online device)
Gas contamination analysis and discussion
Example of high resolution mass spectrum. 12C16O, 14N and 12C
21H
2 can be separated
After 1 month of purification, no oxygen is left in the gas.
Full spectrum from the mass spectrometer before and after purification
O2 disappeared completely
● The HARPO TPC provided good cosmic data for several month in fully sealed mode
● Equipped with a simple lightweight purification system, the full performance was recovered in only a few weeks
=> Could run continuously without degradation
● A loss of isobutane during purification was observed and needs further investigation
● Further long time study (>1year) should be done in continuous running mode (CAPS and HV on)
Conclusions and discussion
4th Conference on Micro-Pattern Gaseous Detectors, 2015-10-12
D. Bernard, M. Frotin, Y. Geerebaert, Ph. Gros, I. SemenioukLLR, Ecole Polytechnique, CNRS/IN2P3, 91128 Palaiseau, France
D. Attié, A. Delbart, P. MagnierIRFU, CEA Saclay, 91191 Gif-sur-Yvette, France
V. Dauvois. D. Durand, S. LegandDEN/DANS/DPC/SECR/LRMO, CEA Saclay, 91191 Gif-sur-Yvette, France
Circulation And Purification System(CAPS)
• Sealed TPC
- 100 litres vessel
• Closed circulation circuit
- Small turbine for gas circulation
- Oxisorb® filter for O2 and H2O removal
- Flowmeter
• All parts of the circuit can be isolated
- Testing for leaks
- Sample extraction
• Thoroughly tested for leaks
- in vacuum
- under pressure
Light and sealed turbine for circulation with flows of about one litre per hour
Patent FR 15 50987 (2015/02/09)
Immediately after opening CAPS
After one week of circulation
Oxisorb® filter for O2 and H2O
Gas Flow
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